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Jurnal Pendidikan MIPA
Published by Universitas Lampung
ISSN : 14112531     EISSN : 26855488     DOI : http://doi.org/10.23960/jpmipa
Core Subject : Education,
Education
Jurnal Pendidikan MIPA (JPMIPA) focused on mathematics education, science education, and the use of technology in the educational field. In more detail, the scope of interest are, but not limited to: STEM/STEAM Education Environmental and Sustainability Education Scientific Literacy Computer-based Education and Digital Competence Higher Order Thinking Skills Multicultural and Inclusive Education Attitude towards Mathematics and Science Learning Models, Methods, Strategies of Math & Science Learning Virtual and Blended Learning Teacher Education
Arjuna Subject : Ilmu Sosial - Pendidikan
Articles 635 Documents
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Biogas in Science Education: A Systematic Literature Review and Bibliometric Mapping of Trends, Challenges, and HOTS Integration (2015–2024) Handayani, Rinda Fitri; Wardana, Rendy Wikrama; Mayub, Afrizal; Yanti, Fitri April; Nursaadah, Euis; Abdul Rahim, Suzieleez Syrene; Khamis, Noorzana
Jurnal Pendidikan MIPA Vol 27, No 1 (2026): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v27i1.pp63-81

Abstract

Biogas is a renewable, environmentally friendly energy source with significant potential for science education, offering an alternative to the global fossil fuel crisis. This study aims to provide a brief overview of research trends, publication contributions, methodologies used, thematic coverage, and teaching integration in the biogas-based science education literature. This study is a Systematic Literature Review (SLR) with bibliometric analysis, supported by Publish or Perish and VOSviewer, including 720 selected articles from the period 2015 to 2024. The results show that, since 2020, publications related to biogas have increased significantly, with three main research focuses: the use of organic waste for renewable energy development; the application of biogas as an alternative global energy source through technological innovation; and its integration into HOTS learning and education. The majority of the publications come from reputable international journals such as Energies and Sustainability. Case studies and reviews remain the dominant research protocols, while empirical designs such as experiments and surveys are still relatively rare, leaving room for more applied follow-up studies. This review also finds that the application of biogas in science education can support the development of Higher Order Thinking Skills (HOTS). However, this application remains limited in the existing literature. Therefore, the findings highlight the need for further empirical research to more deeply explore the potential of biogas for science education and HOTS development. This study provides new insights that the biogas literature has not fully integrated practical applications for HOTS development, thus requiring further creative and applied research to address this gap. Keywords: alternative energy, biogas, environmentally friendly, HOTS, science education.
ULTRA: A Digital Gamification Approach to Boosting Mathematical Creative Thinking and Self-Regulated Learning Nopitasari, Dian; Kusumah, Yaya Sukjaya; Juandi, Dadang; Priatna, Bambang Avip
Jurnal Pendidikan MIPA Vol 26, No 4 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i4.pp2720-2741

Abstract

The Mathematics Education Game is a gamification-based teaching material specifically designed to develop mathematical creative thinking skills and self-regulated learningin high school students. This game adopts a Snakes and Ladders format, consisting of three learning modules covering core trigonometry: basic concepts, quadrants, special angles, trigonometric equations, trigonometric identities, double-angle identities, sums and differences of angles, and multiplication of trigonometric functions. The game developed in this study, Attractive Trigonometric Snakes and Ladders (ULTRA), aims to serve as an engaging digital learning resource for students in grades XI and XII. The purpose of this study is to examine the improvement in creative thinking skills and self-regulated learning of students who use ULTRA. The research method uses the ADDIE model and is evaluated through three research instruments: (1) a mathematical creative thinking test containing four essay questions to measure fluency, flexibility, originality, and elaboration; (2) a 24-item self-regulated learning questionnaire that assesses goal setting, monitoring, strategy use, and reflection; and (3) a 15-item student response questionnaire to assess usability and engagement. Effectiveness was analyzed using normalized gain, while validity and practicality were reviewed through expert assessment and descriptive data. The research subjects were 496 students from 16 classes, comprising 247 in the experimental class and 249 in the control class. This study concluded that ULTRA is valid, practical, and has potential as a digital medium for mathematics learning. Effectiveness testing conducted in four schools showed a moderate increase in N-Gain in mathematical creative thinking skills, as well as positive behavioral indicators of learning independence, indicating that ULTRA strengthens students' higher-order thinking skills and independence. Overall, the findings indicate that the ULTRA game has the potential to improve mathematical creative thinking and self-regulated learningwhile providing an engaging digital learning experience for students.   Keywords: education game, creative thinking, self-regulated learning.
Integrating Education for Sustainable Development into Ecology Learning: Developing a Multimodal E-Book to Enhance Students' Scientific Literacy Aqilah, Siti; Pursitasari, Indarini Dwi; Rachman, Indriyani; Matsumoto, Toru
Jurnal Pendidikan MIPA Vol 26, No 4 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i4.pp2818-2834

Abstract

The advancement of digital technology has driven innovation in learning resources, including the use of e-books as supportive media in science education. In the context of ecology learning at the junior secondary level, instructional materials are needed that not only present fundamental concepts but also cultivate scientific literacy and sustainability awareness. This study aimed to develop an ecology e-book grounded in the Education for Sustainable Development framework and to examine its feasibility and effectiveness in enhancing students’ scientific literacy. The research employed a Research and Development approach using the ADDIE model, comprising need analysis, design, development, implementation, and evaluation. The e-book was validated by two material experts, two media experts, and twenty science teachers. Validation results showed a very high level of feasibility, with material experts awarding an average score of 96.3 percent and media experts 95.3 percent, supported by a CVI of 0.95 and a CVR of 0.93, indicating strong content validity. During implementation, the e-book’s effectiveness was tested using a quasi-experimental design with 35 students in the experimental class and 27 in the control class. The analysis revealed a moderate improvement in students’ scientific literacy, with an N-gain of 0.43, while the control class achieved an N-gain of 0.20. Gains were evident in knowledge and competency, particularly in understanding scientific phenomena and epistemic reasoning. The distribution of scores in the experimental class also became more homogeneous, suggesting more even conceptual understanding. Statistical tests confirmed significant differences between the two groups, strengthening the evidence of the e-book’s impact. Students’ responses averaged 81 percent in the very good category, covering content, language, visuals, and usefulness. These findings indicate that the ESD-based ecology e-book is feasible and effective for improving scientific literacy among junior secondary students. Keywords: e-book, ecology, education for sustainable development, scientific literacy.
Integrating Trust and Perceived Performance into the Expectation-Confirmation Model: A Mixed-Methods Study on Generative AI Persistence Purwita, Anggraeni Widya; Sari, Anisa Yunita
Jurnal Pendidikan MIPA Vol 26, No 4 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i4.pp2637-2650

Abstract

The rapid adoption of Generative AI in tertiary education has changed how students obtain, process, and assess learning information, but little is known about how satisfied they will be in the long term and the persistence intention towards such technologies. This research paper discusses why students were satisfied and wanted to continue using AI-based learning tools, according to the Expectation Confirmation Theory (ECT). A sequential mixed-methods design was used to collect quantitative data from 106 university students across Education, Engineering Computer Science, and Health Sciences majors. Quantitative data were analyzed using PLS-SEM, and an eventual semi-structured interview of eight subjects was used to validate the quantitative data. The findings suggest that all the variables of expectation, perceived performance, confirmation, and satisfaction are important predictors of continuance intention. However, perceived performance is the most effective predictor. There is a statistically significant but weak relationship between expectations and confirmation, and students' confirmation is likely influenced more by their experience with AI performance than by their initial expectations. These findings are also supported by qualitative evidence indicating that the reliability, contextual relevance, and trustworthiness of AI systems strongly impact student satisfaction and confidence in AI-based learning. The study highlights the significance of perceived performance and trust as key factors in maintaining the use of AI in education. In theory, it uses the Expectation Confirmation Theory, incorporating ethical awareness and reliability as contextual factors that affect satisfaction and continuance intention. In practice, this means that AI developers and teachers need to be more transparent about their algorithms, accurate, and ethically literate to build trust and foster meaningful interaction with AI in higher education.    Keywords: expectation confirmation theory, gen ai, student satisfaction, continuance intention, higher education.
Fostering Statistical Reasoning and Numeracy Literacy: The Role of Scratch-Based Interactive Multimedia in Seventh-Grade Mathematics Ramadhan, Muhammad Ryan; Pamungkas, Megita Dwi; Nurjanah, Arifta
Jurnal Pendidikan MIPA Vol 27, No 1 (2026): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v27i1.pp82-99

Abstract

Interactive learning multimedia is needed to improve students’ numeracy literacy skills. Based on this, this study aims to analyze the validity, practicality, and effectiveness of interactive learning multimedia assisted by Scratch to improve students’ numeracy literacy skills. Based on this, this study aims to develop and evaluate interactive multimedia learning assisted by Scratch to improve students' numeracy literacy skills. This study used a Research and Development (R&D) method based on the ADDIE model. In this study, the sample comprised 32 students from class VII A at SMP Negeri 2 Temanggung. The Sampling technique used was cluster random sampling. Data collection techniques used questionnaires, interviews, completing test questions, and observations. The novelty of this research lies in the development of interactive multimedia using Scratch, a tool that has not previously been used to improve numeracy literacy skills. The multimedia developed was categorized as very valid, with material validity of 85.64% and media validity of 85.78%. Its practicality was also rated very high, as indicated by student responses of 85.94% and teacher responses of 90%.  The multimedia also proved effective in improving numeracy literacy skills, as indicated by the N-Gain score of 0.5550 (moderate category) and significant differences between pretest and posttest results (t = 9.554, df = 31, p < 0.05). Interactive multimedia learning assisted by Scratch was also found to be very practical, with 85.94% of students responding positively in the student response questionnaire and 90% in the teacher response questionnaire. Thus, it can be concluded that interactive multimedia developed using Scratch is valid, practical, and effective in improving students’ numeracy literacy skills. Keywords: numeracy literacy, interactive multimedia, scratch.
Implementing Computational Thinking-Based Summative Assessment in STEM: Opportunities and Barriers in an Indonesian Islamic Senior High School Winarni, Sri; Driana, Elin; Ernawati, Ernawati; Setiadi, Hari
Jurnal Pendidikan MIPA Vol 26, No 4 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i4.pp2742-2765

Abstract

Rapid technological advancement and the increasing complexity of real-world problems require students to develop ways of thinking that enable them to analyze, structure, and solve problems systematically. Computational thinking (CT) has therefore emerged as a crucial competence, particularly within STEM education. Despite growing interest in CT integration through project-based learning, limited attention has been given to how CT is incorporated into end-of-schooling summative assessment at the senior high school level. This study examines teachers’ and students’ understanding of computational thinking, their perceptions of CT-based summative assessment through STEM projects, classroom implementation practices, and the challenges faced during implementation. Using a qualitative case study approach, data were collected through interviews, classroom observations, and document analysis at a private Islamic senior high school in Indonesia. The participants included seven teachers from different subject areas and eleven twelfth-grade students who were directly involved in a CT-based summative STEM project. Data were analyzed thematically through an iterative process of data condensation, display, and verification. The findings indicate that both teachers and students generally conceptualize CT as systematic, step-by-step problem-solving. While teachers demonstrate a broader conceptual understanding of CT, its core dimensions, such as decomposition, abstraction, and algorithmic thinking, are not yet explicitly operationalized in summative assessment criteria. Students can apply CT to practical project tasks, although their understanding remains basic. Both teachers and students perceive CT-based summative assessment positively, as it emphasizes thinking processes, hands-on learning, collaboration, and real-world problem contexts. However, implementation is constrained by limited assessment literacy, challenges in interdisciplinary alignment, time constraints, unequal student participation, and resource limitations. Overall, the study suggests that CT-based summative assessment through STEM projects has strong potential to support meaningful learning at the senior high school level. Nevertheless, clearer assessment frameworks, targeted teacher professional development, and stronger institutional support are required to bridge the gap between conceptual intentions and assessment practices. Keywords: computational thinking, project-based learning, summative assessment, STEM, 21st-century competencies.
The Effect of Socratic Questioning-Based Student Worksheets on Improving Students’ Critical Thinking Skills Hayati, Laila; Suyidno, Suyidno; Sauqina, Sauqina; Khairunnisa, Yasmine; NF, Abd Rahman
Jurnal Pendidikan MIPA Vol 26, No 4 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i4.pp2542-2556

Abstract

The Effect of Socratic Questioning-Based Student Worksheets on Improving Students’ Critical Thinking Skills. Objective: The ability to think critically plays an essential role in students' achievement in the 21st century, yet its development in science classroom instruction continues to be insufficient. Science education can be monotonous, the content is often perceived as complex, and students typically lack confidence during discussions. This study investigates the influence of Socratic Questioning-based Student Worksheets (SQ-SW) on the improvement of critical thinking skills among junior high school students regarding excretory system content. The novelty of this study lies in the deliberate integration of Socratic questioning techniques into student workbooks, a topic that has been scarcely explored in previous research. Methods: This study employed a quasi-experimental framework with a Nonequivalent Control Group Design. Participants involved 64 eighth-grade students of SMP Negeri 27 Banjarmasin, Indonesia, selected through purposive sampling. The experimental group used the SQ-SW, while the control group used conventional worksheets. Data were collected through a validated response questionnaire and a critical thinking skills assessment, both of which have been confirmed as valid and reliable. Data were analyzed using a descriptive qualitative approach, normality and homogeneity tests, paired-sample t-tests, and independent-sample t-tests. Findings: The findings indicated that SQ-SW could be efficiently applied with a commendable rating. Students in the experimental group demonstrated notable progress in critical thinking, achieving a moderate N-gain (0.56), whereas the control group achieved only a minimal N-gain (0.11). Four critical thinking dimensions (question formulation, hypothesis creation, self-regulation, and conclusion formation) showed moderate advancement. However, the analytical dimension displayed more constrained growth. Conclusion: The use of SQ-SW significantly influences junior secondary students' mastery of excretory system content and their development of critical thinking. Integrating Socratic questions throughout student worksheets creates a systematic, motivating pedagogical approach that breaks conventional classroom routines while enhancing conceptual depth. This investigation introduces a fresh educational technique adaptable to diverse science subjects and academic stages.   Keywords: critical thinking skill, excretory system, science learning, socratic questioning. 
Enhancing Elementary Students' Interest in Physical Geography: The Development of BENAPRO PBL-Based Interactive E-Module Febriyanti, Anggun; Restian, Arina
Jurnal Pendidikan MIPA Vol 27, No 1 (2026): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v27i1.pp01-17

Abstract

The challenge in teaching Natural and Social Sciences (IPAS) in elementary schools often lies in the difficulty of visualizing abstract concepts, particularly regarding landscape diversity and its relationship to community professions. Preliminary observations at Dadaprejo 01 Public Elementary School revealed a critical issue: fourth-grade students exhibited low engagement, characterized by a lack of focus and visible boredom during conventional lessons that relied heavily on static worksheets. Consequently, this study aims to develop the "BENAPRO" (Bentang Alam dan Profesi) e-module, designed to meet the criteria of validity, practicality, and effectiveness, specifically to increase students' interest in learning. This research employs a Research and Development (R&D) approach based on the ADDIE model (Analysis, Design, Development, Implementation, and Evaluation). The subjects in the field trial were 18 fourth-grade students. Data collection instruments included expert validation sheets, teacher and student response questionnaires using a Likert scale, and pre-test/post-test questionnaires to measure learning interest. The data were analyzed both descriptively and quantitatively. The results show that the e-module is "highly valid," with material experts providing an average score of 86% and product experts rating it at 96%. Practicality tests demonstrated excellent reception, with educators rating the module at 97.9% and students at 98.6%, citing the module's interactive features and ease of use. Crucially, the effectiveness test showed a significant surge in student interest, indicated by an N-Gain score of 0.82, which falls into the "High" category. It is concluded that the BENAPRO e-module is a valid, practical, and effective tool. By integrating Problem-Based Learning syntax with contextual visualization, this innovation effectively transforms passive learning into active engagement, making it a suitable alternative to the Independent Curriculum. Keywords: e-modules, natural and social sciences, diversity of landscapes and community professions, learning interests.
Mapping Newman’s Error Analysis to Mathematical Creative Thinking: A Diagnostic Tool for Identifying Cognitive Disruptions Kartono, Kartono; Suciawati, Vici
Jurnal Pendidikan MIPA Vol 26, No 4 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i4.pp2651-2676

Abstract

This study examines the relationship between Newman’s Error Analysis (NEA) stages and dimensions of Mathematical Creative Thinking (MCT) in solving contextual problems on relations and functions. Using a descriptive qualitative approach, 25 eighth-grade students were analyzed through two open-ended contextual essay items and semi-structured interviews. Errors identified at each NEA stage (reading, comprehension, transformation, process skills, encoding) were mapped to corresponding MCT dimensions to investigate correlations between error patterns and limitations in creative thinking. Findings indicate that students’ primary difficulties emerged at higher-order cognitive stages. Most students succeeded in the reading (23 students on item 1) and comprehension stages (19 students), yet substantial errors occurred during transformation (14 errors), process skills (17 errors), and encoding (20 errors), a pattern similarly observed in Item 2. The narrowing of the Sankey diagram flow suggests that the core difficulties lie not in basic literacy skills but rather in increasing representational and procedural complexity, particularly at the transition from transformation to process skills. Case analyses revealed distinct profiles: high-ability students demonstrated strong fluency and flexibility but experienced a “cognitive transparency illusion” that constrained their elaboration; medium-ability students showed inconsistency in strategic execution due to strategic breakdowns and affective instability; and low-ability students encountered cascading failures beginning from the earliest stages. The study positions the NEA–MCT mapping as an interpretive diagnostic helpful framework for identifying cognitive–affective barriers to mathematical creativity. This framework supports differentiated interventions, including metacommunicative scaffolding for high-ability students, integrated cognitive–strategic–affective support for medium-ability students, and foundational representational instruction with affective scaffolding for low-ability students. Limitations include the small sample size and the narrow task context. Future studies should involve larger and more diverse participants, incorporate real-time think-aloud data, explore additional mathematical domains, and evaluate the framework’s potential in digital learning environments. Keywords: mathematical creative thinking, Newman’s Error Analysis, problem solving, relations and functions.
Bridging Sustainability and Chemistry Education: A Systematic Review of Problem-Based Learning in Green Chemistry for Enhancing Scientific Literacy Kusuma, Rani Ratna; Agustini, Rudiana; Lutfi, Achmad; Satriawan, Muhammad; Soraya, Fathimah
Jurnal Pendidikan MIPA Vol 27, No 1 (2026): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v27i1.pp100-123

Abstract

This study aims to identify models for developing teaching materials based on problem-based learning (PBL) in the context of green chemistry and to document the skills reported to have improved in these studies. In addition, this review examines how integrating PBL and green chemistry strengthens science culture, an area where research gaps persist, as previous results have not been systematically summarized. The method used in this study is a Systematic Literature Review (SLR) by following the PRISMA guidelines. Data are obtained from various scientific databases, including Scopus, SINTA, Web of Science (WoS), DOAJ, and Google Scholar, covering publications from 2022 to 2025. A total of 20 peer-reviewed articles that met the criteria were analyzed using a descriptive and bibliometric approach in VOSviewer. The results of the study show that most research reports an improvement in conceptual understanding, critical thinking skills, and environmental awareness when PBL is applied in the context of green chemistry. This approach helps students become aware of environmental issues through relevant problem-solving, such as energy efficiency and the use of environmentally friendly chemicals. The bibliometric analysis highlights five key themes: PBL, green chemistry, scientific literacy, local knowledge, and digital learning, pointing to a growing trend of integrating environmental, cultural, and technological perspectives in research. The thematic synthesis indicates that combining PBL with approaches such as SSI, context-based learning, or ethnoscience can further enhance scientific literacy. This review maps how PBL teaching materials are developed in Green Chemistry and how they relate to scientific literacy. The findings also emphasize the need for quantitative meta-analysis and longitudinal research to examine the long term effects of PBL, a gap not addressed in the 20 reviewed studies. Keywords: systematic literature review, science literacy, green chemistry, problem-based learning.

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